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IPV
Integrated
Photovoltaic

A showcase of case studies, 
products and tools for IPV

Con il supporto di:

IEA PVPS Task 15 project aims to create an enabling framework to accelerate the penetration of BIPV products in the global market of renewables.
Operazione co-finanziata dall’Unione europea, Fondo Europeo di Sviluppo Regionale, dallo Stato Italiano, dalla Confederazione elvetica e dai Cantoni nell’ambito del Programma di Cooperazione Interreg V-A Italia-Svizzera

Milland Church

renovation

listed building

Destinazione d'uso: 
religioso
Anno integrazione IPV: 
tra 2006 e 2010
Fonte: 
Eurac Research

Milland Church

Via Campill, Bressanone (BZ), Italy

Introduzione

Stakeholders

Integrazione estetica

Integrazione energetica

Integrazione tecnologica

Processo decisionale

Lessons learnt

Dati

Produttore e installatore

Map

Autore

Milland Churcgh represents an interesting example of retrofit of a church built in 1984– 1985. The PV system is a pitched roofing solution integrated into the metal sheets roof.

STAKEHOLDERS

Progettista sistema IPV: 

Von lutz, Arch. Claudio Paternoster, Elettropiemme Srl

Produttore componenti IPV: 

SunPower

Indirizzo: 
51 Rio Robles San Jose, California, USA
Contatti: 
1-408-240-5500
Web: 
https://us.sunpower.com/
Installatore sistema BIPV: 

Elettropiemme Srl

Indirizzo: 
Via Linz 137, Trento (TN), Italy
Contatti: 
info@elettropiemme.it +39 0461 991935
Web: 
https://www.elettropiemme.it/en/#toggle-id-2

The original building shape, composition and main colours are respected. The roofing system is divided into six triangular parts. The PV plant, installed on the south-west facing part, is made of dark modules with black rear side base in order to keep homogeneity in surface and colours.

The BIPV system annually produces an electrical output of around 22,000 kWh (as monitored in 2011 by Eurac Research). It supplies most of electrical energy need of the church, the parish centre and the rectory (Don Vijo Luigi Alois Pitscheider).

87 PV modules (SunPower SPR-220 BLK) are integrated 14.5 cm far from the outside roof layer with a gap of 2.5 cm among the module arrays. The air gap allows natural ventilation of the PV modules and thus slightly reduces the power losses caused by the increased operative temperature. The chosen module typology eliminates standard metal gridlines, since metal contacts are placed on the back of the solar cell, out of sight. The fixing system is made of metal rails and clips.

The main reason that leads the priest Don Vijo Luigi Alois Pitscheider to strongly want the integration of the photovoltaic system into the Milland Church roof was making a practical contribution to promote the use of renewable energy, serving an example for the community. Using one of the most sun-exposed roof parts to produce electric energy was also an opportunity to enhance the modern church features. The first step was to obtain the religious institution’s permission to install such an innovative technology on a holy building. Once the feasibility and cost effectiveness of the intervention were assessed, the priest succeeded in overcoming an initial disagreement with the local government (Don Vijo Luigi Alois Pitscheider).

The selected PV technology, based on back contact technology, combines an esthetical appeal (homogeneous black appearance) with the energy performance (the PV cells are entirely exposed to solar radiation without any covering due to standard front contacts). Fake modules play an important role in the finishing of the BIPV system. In order to respect the roof geometry, several fake modules have been installed around the perimeter of the PV system. First fake modules which have been installed resulted to be too reflective and did not match very well with the active PV modules in the considered operative conditions. They have thus been removed and replaced with less reflective ones in order to provide a more homogeneous and coherent aspect. This experience underlines the importance of finishing details, which can make the difference to reach high quality in BIPV systems.

DATI EDIFICIO

Tipologia progetto: 
DATI SISTEMA BIPV
Sistema architettonico BIPV: 
Opaque roof
Anno di integrazione BIPV: 
2008
Materiale attivo: 
Monocrystalline silicon
Trasparenza modulo: 
Potenza sistema [kWp]: 
19
Area sistema [m²]: 
107
Dimensioni modulo [mm]: 
1,559 x 798
Orientamento moduli: 
South-West
Inclinazione moduli [°]: 
35
Produzione FV annuale [kWh]: 
22.000
COSTI SISTEMA BIPV
Costo totale [€]: 
140.000
€/kWp: 
7.315
€/m²: 
1.308
Produttore componenti IPV: 

SunPower

Indirizzo: 
51 Rio Robles San Jose, California, USA
Contatti: 
1-408-240-5500
Installatore sistema BIPV: 

Elettropiemme Srl

Indirizzo: 
Via Linz 137, Trento (TN), Italy
Contatti: 
info@elettropiemme.it +39 0461 991935
Via Campill, Bressanone (BZ), Italy

Eurac Research